# Creating an IntegerNumber class for a homework assignment in C++ to sum large integers as strings exceeding long range

So I am creating an IntegerNumber class that needs to be able to output an addition of integers that are about 26 digits long, for example : -12345678954688709764347890 is stored into B which is a the type IntegerNumber. A,B,C, and D are all type IntegerNumber. I don't have a problem assigning the values of each to each other like A = B or B = C using an operator= function. Later in the main code, one of the requirements is to be able to output the sum of numbers like D = A + B or even do a comparison of A < B.

I wouldn't have trouble doing this if these numbers were within the long or int range of numbers. I am having trouble figuring out how to do the addition of -12345678954688709764347890 + 5678954688709764347890 when these values are strings. What would be the best way to convert these into a type where it could be added or even compared ( A < B)?

Here is what I have so far:

``````#include <iostream>
#include <cstring>
using namespace std;

class IntegerNumber
{

friend ostream& operator<<(ostream &, const IntegerNumber&);
friend IntegerNumber operator+(const IntegerNumber&, const IntegerNumber&);
friend bool operator<(const IntegerNumber&, const IntegerNumber&);
friend bool operator==(const IntegerNumber&, const IntegerNumber&);
friend bool operator!=(const IntegerNumber&, const IntegerNumber&);

private:

char *intnum;

public:

IntegerNumber();  //default constructor

IntegerNumber(const char *); //constructor with C-string argument

IntegerNumber(const IntegerNumber &); //copy constructor

~IntegerNumber(); //destructor

IntegerNumber& operator=(const IntegerNumber &rhsObject); //assignment operator

int Length(); //returns length of string

};

void main() {

IntegerNumber A; // IntegerNumber object is created and A contains the integer 0

IntegerNumber B("-12345678954688709764347890"); // IntegerNumber object B is created and B contains the negative number shown within the quotes " "

IntegerNumber C = "5678954688709764347890"; // IntegerNumber object C
//is created and C contains the positive number shown within the quotes " "
IntegerNumber D(B); // IntegerNumber object D is created and D contains
// the number that B contains
A = B; // assigns the value of A to that of B
cout << A << endl; // output to screen the integer in A
B = C; // assigns the value of B to that of C
cout << A << endl; // output to screen the integer in A
// value of A must be same as before.
cout << D << endl; // output to screen the integer in D
// value of D must be same as before.
cout << B << endl; // output to screen the integer in B
// value of B must be same as that of C
D = A + B;
cout << D << endl; // output the sum of the numbers A and B
if ( A < B ) {
C = A + B;
cout << C << endl; // output the sum of A and B
}

else {
A = B + C;
cout << A << endl; // output the sum of B and C
}

if (A == B || C != D)
cout << A << " " << D << endl; // output values of A and D
}

IntegerNumber::IntegerNumber() {

intnum = new char[2];

intnum = "0";

}

IntegerNumber::IntegerNumber(const char *str) {

intnum = new char[strlen(str) +1];

strcpy(intnum, str);

}

IntegerNumber::IntegerNumber(const IntegerNumber &ob) {

intnum = new char[strlen(ob.intnum) +1];

strcpy(intnum, ob.intnum);

}

IntegerNumber::~IntegerNumber() {

delete [] intnum;

}

IntegerNumber& IntegerNumber::operator=(const IntegerNumber &ob) {

if (this != &ob) {

delete [] intnum;

intnum = new char[strlen(ob.intnum) +1];

strcpy(intnum, ob.intnum);

}

return *this;
}

int IntegerNumber::Length() {

return strlen(intnum);

}

ostream& operator<<(ostream &out, const IntegerNumber &ob) {

out << ob.intnum;

return out;

}

IntegerNumber operator+(const IntegerNumber &lhs, const IntegerNumber &rhs) {

int strLength = strlen(lhs.intnum) + strlen(rhs.intnum) +1;

char *tmpStr = new char[strLength];

strcpy(tmpStr, lhs.intnum);

strcat(tmpStr, rhs.intnum);

IntegerNumber retStr(tmpStr);

delete [] tmpStr;

return retStr;

}

bool operator==(const IntegerNumber& lhs, const IntegerNumber& rhs) {

return (strcmp(lhs.intnum, rhs.intnum) == 0);

}

bool operator!=(const IntegerNumber& lhs, const IntegerNumber& rhs) {

return (strcmp(lhs.intnum, rhs.intnum) != 0);

}

bool operator<(const IntegerNumber& lhs, const IntegerNumber& rhs) {

return (strcmp(lhs.intnum, rhs.intnum) < 0);

}
``````

For some reason, I'm having warnings for strcpy: `Warning 4 warning C4996: 'strcpy': This function or variable may be unsafe. Consider using strcpy_s instead. To disable deprecation, use _CRT_SECURE_NO_WARNINGS. See online help for details. c:\users\danny\documents\visual studio 2010\projects\hw6\hw6\hw6.cpp 106 1 HW6`

And also strcat with the same error, I tried changing to strcpy_s and strcat_s but I get an error saying: `6 IntelliSense: no instance of overloaded function "strcpy_s" matches the argument list c:\users\danny\documents\visual studio 2010\projects\hw6\hw6\hw6.cpp 89 3 HW6`

-
Is your homework assignment related to solving the big integer problem, or is it just the approach that you took to tackle the main issue? If it is the latter then I'd suggest you try gmplib.org –  Khaled Nassar Apr 24 '11 at 18:14
Acutally there is not type for such a long numbers. You might no be allowed to use libraries that handle such large numbers, so you need to think on how to add these digits as multiple parts, with carry over and following some more steps. –  user349026 Apr 24 '11 at 18:15
possible duplicate of How to implement big int in C++. Also check this BigInt library –  Prasoon Saurav Apr 24 '11 at 18:18
The full problem states to design an IntegerNumber class so that the following code works: IntegerNumber A; IntegerNumber B("-21839123912937981938217389213"); IntegerNumber C = "473824792472893472473284729473"; IntegerNumber D(B); A = B; B = D; D = A + B; if (A < B) { C = A + B; } else A = B + C; –  j2581 Apr 24 '11 at 18:50
You'll find some good answers from the link that Prasoon posted. –  Khaled Nassar Apr 24 '11 at 19:12

Have a field of type `std::vector<char>` in your class, and store all the digits of the big number, in it and then you can sum the corresponding digits of the vectors in `operator+()` (just like you did in school) and return the result.

``````class IntegerNumber
{
//make sure that m_digits contains only digit: digit means, 0 to 9.
//when you add 9 plus 4, it becomes 14, but you don't put in into m_digits,
//rather you just put 3 (unit digit of 13), the 1 goes in the second round of sum!
std::vector<char> m_digits;
public:
IntegerNumber();
IntegerNumber(const std::string &number)
{
//parse the string 'number' and populate the m_digits;
}
IntegerNumber operator+(const IntegerNumber & number);
{
IntegerNumber result;
//sum all the corresponding digits of number.m_digits and this->m_digits
//and store in result.m_digits;
return result;
}
//...
};
``````

EDIT:

By the way, here is how the start should look like : http://www.ideone.com/Yb5Nn

-
make is vector<unsigned char> if you are gonna store single digits –  sehe Apr 24 '11 at 18:20
@Nawaz: Summing up corresponding digits is not the problem, summing up big integers is. –  Khaled Nassar Apr 24 '11 at 18:22
@Khaled: Exactly. Summing up corresponding digits is the solution of of the problem of the summing up of the big integers which are represented by the `m_digits` internally. –  Nawaz Apr 24 '11 at 18:24
@Khaled: That is how you did addition when in schools? –  Nawaz Apr 24 '11 at 18:31
@Khaled: You can make the machine do in the same way you do in schools. When you sum "2 + 9", you write in just "1" in paper, and "1" goes in the second round of summing up. –  Nawaz Apr 24 '11 at 18:35